Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0034069 (pulmonary fibrosis)
7,050 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have investigated the synthesis and matrix deposition of interstitial and basement membrane collagens in a rat model of bleomycin-induced pulmonary fibrosis. Rats weighing 175 to 200 g were injected intratracheally with bleomycin sulfate (1.5 units) or saline. At 10 days, lungs from bleomycin-treated rats showed multifocal interstitial and intraalveolar fibrosis, a nearly 2-fold increase in total lung hydroxyproline, and a 3-fold increase in the incorporation of [3H]proline into bacterial collagenase-sensitive protein. For characterization of the newly synthesized collagens, lung slices were labeled for 4 h with [3H]proline, homogenized in 4.5 M NaCl, and extracted at 4 degrees C with 2 M guanidine-HCl and/or by reduction and alkylation. Extracts contained type IV procollagen, types I, III, and V collagen, and greater than 95% of the nondialyzable [3H]hydroxyproline. At 10 days, bleomycin-treated rats showed a nearly 2-fold decrease in the proportion of type IV in extracts of the 4.5 M salt residue, a greater than 3-fold increase in incorporation of proline into interstitial collagens, and an increase in the ratio of type I to type III collagen. Total incorporation of proline into type IV procollagen was not significantly increased. These results suggest that the period of maximal collagen synthetic activity observed at 1 to 2 wk after bleomycin administration is associated with a selective increase in the synthesis and accumulation of interstitial collagens.
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PMID:Biosynthesis of interstitial and basement membrane collagens in pulmonary fibrosis. 243 38

Alveolar macrophages (AM) may function as effector cells that can either stimulate or inhibit lung fibroblast collagen production. However, conditions that determine the predominant effect of AM on fibroblasts are not well understood. To delineate factors that modulate the effects of AM on lung fibroblasts, we studied the interaction of AM products and fibroblasts in vitro. The AM were obtained by bronchoalveolar lavage of hamsters with bleomycin-induced pulmonary fibrosis. Conditioned medium (CM) from the AM cultures was incubated in varying amounts with lung fibroblast (IMR-90) cultures. After metabolic labeling with [3H]proline, fibroblast collagen production based on procollagen-specific radioactivity was determined (Anal Biochem 1984; 140:478). Macrophage CM in concentrations greater than 5% suppressed collagen production, an event attributed to the macrophage-derived suppressive factor that we have previously characterized (J Clin Invest 1983; 72:2082). Macrophages were also determined to produce PGE2 in culture (500 pg/10(6) cells). Authentic PGE2 at concentrations found in CM was found to suppress fibroblast collagen production, indicating that AM-derived PGE2 contributes to the suppressive activity in CM. To examine possible stimulatory factors in CM, the fibroblasts were preincubated with indomethacin. This approach was based on our previous observation that AM-derived suppressive factor increases endogenous fibroblast PGE2 and that its activity can be blocked by indomethacin. Macrophage CM in a concentration of 20% did not suppress the collagen production of indomethacin-treated fibroblasts. However, CM concentrations of 5 and 10% increased collagen production (173 and 143% of control values, respectively), indicating the presence of stimulatory factor(s) in macrophage-conditioned medium.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Modulation of the effects of alveolar macrophages on lung fibroblast collagen production rate. 243 14

Bleomycin produces a dose- and time-dependent interstitial pulmonary fibrosis in humans, and is widely used to produce an animal model for the study of interstitial pulmonary fibrosis. The mechanism(s) for bleomycin-induced pulmonary fibrosis is (are) unknown, but the production of oxygen radicals by a ferrous ion-molecular oxygen pathway might be related to the fibrosis. Therefore, we studied the effect of iron deficiency on the biochemical, inflammatory, and morphologic parameters of bleomycin-induced pulmonary fibrosis in the hamster. Mild iron deficiency was induced in hamsters by bleeding via the retro-orbital sinus and maintenance on an iron-deplete diet. After intratracheal administration of bleomycin (1 U), there was no accumulation of lung collagen in the iron-deficient bleomycin-treated animals. In comparison, iron-replete animals treated with bleomycin exhibited a significant (p less than 0.01) increase in lung collagen. In addition, bleomycin-treated iron-replete animals had increased lung lipid peroxidation (p less than 0.05), whereas bleomycin-treated iron-deficient animals did not (p greater than 0.05). Lung DNA and morphometric estimates of the lesion severity were significantly increased in both iron-replete and iron-deficient bleomycin-treated animals. These data indicate that iron deficiency is associated with a reduction in the severity of bleomycin-induced pulmonary fibrosis, possibly by the prevention of iron-catalyzed oxygen-radical formation and lipid peroxidation.
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PMID:Effect of iron deficiency on bleomycin-induced lung fibrosis in the hamster. 244 14

Bleomycin is an antineoplastic compound which produces a time- and dose-dependent pulmonary fibrosis. The mechanisms which cause this fibrosis are not known. The ability of bleomycin to produce oxygen radicals in the presence of iron and molecular oxygen appears to be related to the fibrosis. Previous studies, which have examined single time points utilizing the ferric ion chelator deferoxamine and iron-deficient diets, suggest that iron plays a central role in bleomycin-induced pulmonary fibrosis. Therefore, the present study was designed to determine the effects of deferoxamine on the development of bleomycin-induced pulmonary fibrosis. Deferoxamine pretreatment and daily injections resulted in a significant reduction in lung collagen content and lung lipid peroxidation 21 days after intratracheal bleomycin compared with bleomycin treatment alone. In addition deferoxamine treatment significantly inhibited lung DNA increases at 4, 7, and 14 days after bleomycin treatment compared with bleomycin treatment alone. These data indicate that deferoxamine treatment reduces the development of bleomycin-induced pulmonary fibrosis in the later phase. The mechanism might be by the prevention of iron-catalyzed, free-radical formation and modulation of some cellular functions.
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PMID:Modulation of the development of bleomycin-induced fibrosis by deferoxamine. 245 18

Because in vitro studies have shown inhibition of fibroblast proliferation and collagen synthesis by interferon, we tested the hypothesis that murine gamma interferon inhibits bleomycin-induced pulmonary fibrosis in mice. Mice were divided into the following groups: saline plus vehicle (27), saline plus interferon (29), bleomycin plus vehicle (26), and bleomycin plus interferon (26). Bleomycin or saline were given intratracheally once at the beginning of the experiment and vehicle (phosphate-buffered saline) or interferon was given intramuscularly daily. Mice were killed at 14 or 21 days of the experiment. About half of the mice from each group were used for collagen biochemistry and half for bronchoalveolar lung lavage, transmission electron microscopy (TEM), and morphometry. Hydroxyproline content showed a significant reduction in bleomycin plus interferon compared to bleomycin plus vehicle mice at 21 days. The saline plus vehicle and saline plus interferon mice showed no difference in hydroxyproline content. Similarly, bronchoalveolar lavage showed no differences between saline plus vehicle and saline plus interferon mice; however, all mice treated with bleomycin showed significant increases in total cells as compared to saline treated mice. At 14 and 21 days in bronchoalveolar lavage there were significantly more lymphocytes in bleomycin plus interferon compared to bleomycin plus vehicle mice. In bronchoalveolar lavage, there were usually fewer neutrophils, monocytes and macrophages in bleomycin plus interferon compared to bleomycin plus vehicle mice. Morphometric estimates of the volume of lesion within lung showed no significant differences among the bleomycin treated groups. Stainable collagen fibers were less, but not significantly, in the bleomycin plus interferon compared to bleomycin plus vehicle mice. The number of fibroblasts per volume of lesion was significantly decreased at 14 and 21 days in bleomycin plus interferon compared to bleomycin plus vehicle mice. The total volume of lymphocytes in interstitial lesions was significantly greater at 14 and 21 days in bleomycin plus interferon mice compared to bleomycin plus vehicle mice. These results suggest an inhibitory action of gamma interferon on collagen accumulation and fibroblast proliferation associated with lymphocyte accumulation in the lungs of mice following bleomycin administration.
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PMID:Effect of murine gamma interferon on the cellular responses to bleomycin in mice. 246 44

A rat model of bleomycin-induced pulmonary inflammation and fibrosis was used to examine the relationship between collagen synthesis and transforming growth factor beta (TGF-beta) production, and cellular distribution. Total lung TGF-beta was elevated within 2 h of intratracheal bleomycin administration and peaked 7 d later at levels 30-fold higher than controls. This was followed by a gradual decline with lower but persistent levels of production in the late phase of the response between 21 and 28 d later. The peak TGF-beta levels preceded the maximum collagen and noncollagen protein synthesis measured by [3H]proline incorporation into lung fibroblast explants of bleomycin-treated rats. The pattern of immunohistochemical staining localized TGF-beta initially in the cytoplasm of bronchiolar epithelium cells and subepithelial extracellular matrix. The peak of lung TGF-beta levels at 7 d coincided with intense TGF-beta staining of macrophages dispersed in the alveolar interstitium and in organized clusters. Later in the course of the response. TGF-beta was primarily associated with extracellular matrix in regions of increased cellularity and tissue repair, and coincided with the maximum fibroblast collagen synthesis. This temporal and spatial relationship between collagen production and TGF-beta production by macrophages suggests an important if not primary role for TGF-beta in the pathogenesis of the pulmonary fibrosis.
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PMID:Macrophage production of transforming growth factor beta and fibroblast collagen synthesis in chronic pulmonary inflammation. 247 72

Measurement of urinary desmosine in experimental models of emphysema has been used to demonstrate elastin catabolism. In order to evaluate the hypothesis that accelerated elastin degradation also occurs in association with acute lung injury characterized by fibrotic repair, we prepared acid hydrolysates of lung lavage (LL) and used a radioimmunoassay for desmosine to measure concentrations of this elastic-specific cross-link in LL. Lavage desmosine (pmol/100 microliter LL) was measured following bleomycin-induced lung injury in marmosets and was shown to be elevated at 1 week (median 6.0, range 5.1-7.8), 2 weeks (8.4, 6.2-8.7), and 4 weeks (7.6, 4.8-7.8) compared to control levels (1.8, 1.4-3.7). Elevations of lavage desmosine after bleomycin were temporarily associated with remodeling of the lung as indicated by increased total lung collagen, reduced diffusing capacity and lung compliance, and histologic evidence of pulmonary fibrosis. Bronchoalveolar lavage (BAL) desmosine was measured in patients with the Adult Respiratory Distress Syndrome (ARDS) and compared with patients at risk, patients with other interstitial lung diseases, and normal healthy controls. BAL desmosine (pmol/100 microliters) was not significantly different in patients with ARDS (3.2, 2.1-3.0), patients at risk for ARDS (2.8, 2.5-4.4), and those with interstitial lung disease (3.0, 1.7-5.3) compared to normal controls (2.9, 1.9-4.7). There were poor correlations of BAL desmosine with physiologic indices of severity of disease in patients with ARDS and those at risk. Accelerated elastolysis occurred in the lower respiratory tract during the evaluation of bleomycin-induced pulmonary fibrosis in marmosets but was undetectable in BAL of patients studied within the first 3 days of ARDS.
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PMID:Bronchoalveolar lavage desmosine in bleomycin-induced lung injury in marmosets and patients with adult respiratory distress syndrome. 247 59

Pulmonary surfactant, besides its mechanical properties, is thought to be involved in lung defence mechanisms. We previously described that: (1) in healthy animals, surfactant synthesis stimulation with ambroxol was accompanied by alveolar macrophage activation and a shift of the alveolar elastase/antielastase balance towards increased antielastase activity, and (2) in bleomycin-treated rats alveolar phospholipidosis was obvious 14 days after drug administration, ambroxol protection reduced the phospholipid peak and the morphological apperance of lung fibrosis at the 14th day of the experiment. The present study found that: (1) in healthy rats, the ambroxol-induced increase of alveolar antielastase activity did not appear due to reactivation of alpha 1-antitrypsin normally oxidized in the alveolar milieu; (2) in bleomycin-induced pulmonary fibrosis, ambroxol protection reduced total long collagen content at day 28, and (3) in paraquat-induced pulmonary fibrosis, alveolar phospholipids were markedly reduced throughout the 21 days of the experiment. On increasing the dose of paraquat, ambroxol protection significantly reduced the animals' death rate.
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PMID:Relationship between changes in alveolar surfactant levels and lung defence mechanisms. 247 66

Bleomycin is an anti-neoplastic compound which produces a time- and dose-dependent pulmonary fibrosis. The mechanisms which cause this fibrosis are not known. However, the ability of bleomycin to modulate prostaglandin synthesis, degradation and circulating levels appears to be central to the fibrosis. Previous studies, which have attempt to modulate bleomycin-induced fibrosis by prevention of prostaglandin synthesis have conflicting results. Therefore, the present study was designed to determine the effects of diclofenac acid, a nonsteroidal anti-inflammatory compound, on the development of bleomycin-induced pulmonary fibrosis. Diclofenac acid pretreatment and daily injections prevented lung collagen accumulation after intratracheal bleomycin. In addition diclofenac acid treatment resulted in significantly lower lung collagen level after intratracheal bleomycin at 14 and 21 days when compared with bleomycin alone. These data indicate that diclofenac acid treatment inhibits bleomycin-induced lung fibrosis possible through the prevention of prostaglandins synthesis.
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PMID:The effect of diclofenac acid (Voltaren) on bleomycin-induced pulmonary fibrosis in hamsters. 248 57

Rats were injected intraperitoneally with 1 mCi (each) of [3H]lysine at Day 11 of neonatal life to label their lung collagen. Five weeks later, half of the animals were given an intratracheal injection of 1.5 U of bleomycin sulfate via a tracheostomy; control animals received saline intratracheally by the same technique. Age-matched groups of control and bleomycin-treated rats were killed, and their lung collagen was analyzed at zero (control animals only), 1, 2, 4, 6, and 10 wk after bleomycin administration, a time course appropriate for development of pulmonary fibrosis in this animal model. We measured radioactivity in hydroxylysine and in the difunctional collagen crosslinks hydroxylysinonorleucine and dihydroxylysinonorleucine at each time point. No evidence of breakdown of this pool of mature, preformed collagen was observed in lungs of either the control or the bleomycin-treated rats. We also measured the total lung content of hydroxypyridinium, a trifunctional collagen crosslink, by its intrinsic fluorescence. There was no evidence of collagen degradation in lungs of either group of rats by this criterion either. We conclude that there is no biochemically detectable turnover of mature lung collagen, defined as that pool of lung collagen that is obligatorily extracellular (i.e., crosslinked and containing labeled hydroxylysine from an injection of precursor 5 to 15 wk earlier), in either normal rat lungs or lungs of rats made fibrotic with bleomycin. Statistical analysis of the data suggests that our methodology was sensitive and precise enough to have detected turnover of less than 0.5% of lung collagen per day, some 20-fold less than estimates of lung collagen turnover that have been suggested to be occurring in vivo by others using different techniques and presumably studying different pools of lung collagen.
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PMID:Biosynthesis of collagen crosslinks. III. In vivo labeling and stability of lung collagen in rats with bleomycin-induced pulmonary fibrosis. 248 79


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